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A5367CA-T

A5367CA-T

  • 厂商:

    ALLEGRO(埃戈罗)

  • 封装:

    DIP16_300MIL

  • 描述:

    IC SMOKE DETECTOR ION 16DIP

  • 数据手册
  • 价格&库存
A5367CA-T 数据手册
A5367 Ionization Smoke Detector with Interconnect and Timer Features and Benefits Description ▪ Low average standby current for long battery life ▪ Interconnect up to 125 detectors ▪ Piezoelectric horn driver ▪ Guard outputs for detector input ▪ Pulse testing for low battery ▪ Power-on reset (POR) ▪ Internal reverse battery protection ▪ Timer (Hush) mode for enabling reduced sensitivity period ▪ Built-in hysteresis reduces false triggering ▪ Temporal horn pattern, per UL217, NFPA72, and ISO8201 ▪ UL Recognized for UL217 or UL268 applications The A5367 is a low-current, BiCMOS circuit providing all of the required features for an ionization-type smoke detector. A networking capability allows as many as 125 units to be interconnected so that if any unit senses smoke all units will sound their alarm. In addition, special features are incorporated to facilitate alignment and test of the finished smoke detector. The device is Recognized by Underwriters Laboratories for use in smoke alarms that comply with Standard UL217 or UL268, per file #S2113. The internal oscillator and timing circuitry keep standby power to a minimum by powering down the device for 1.66 seconds and sensing for smoke for only 10 ms. Every 24 on-off cycles, a check is made for a low battery condition. By substituting other types of sensors or a switch for the ionization detector, this very-low–power device can be used in numerous other battery-operated safety/security applications. Package: 16-pin DIP (suffix A): The A5367 is supplied in a low-cost 16-pin dual in-line plastic package (DIP). It is rated for continuous operation over the temperature range of –10°C to 60°C. The Pb (lead) free version (suffix –T) has 100% matte tin leadframe plating. Not to scale Typical Application Timer Mode 200 kΩ 1 50 kΩ 200 Ω To / from other units C 2 3 4 330 Ω 9V 1 μF DETECT IN I/O A5367 LOW-V SET GUARD1 TIMER OUT 5 7 8 LED OSC CAP VDD HORN2 TIMING RES HORN1 FEEDBACK B 26110.9 Rev. I GUARD2 SENSITIVITY SET 6 8.2 MΩ TIMER START VSS 16 200 k Ω 15 Push to Test 14 13 A 12 A Use an external resistor to adjust sensitivity for a particular smoke chamber. B Select resistor to reduce sensitivity during Timer mode. C A resistor to VSS or VDD may be added to this pin to modify low battery voltage threshold. D Value of component will vary, based on the piezoelectric horn used. 0.1 μF 11 10 9 1.5 MΩ D 220 kΩ D 0.001 μF D Ionization Smoke Detector with Interconnect and Timer A5367 Selection Guide Part Number Pb-Free A5367CA-T Packing Yes A5367CA 25 pieces per tube – Absolute Maximum Ratings* Characteristic Symbol Supply Voltage Range Input Voltage Range Reverse Battery Condition Duration Operating Ambient Temperature Junction Temperature Rating Units VDD Referenced to VSS –0.5 to 15 V VIN Referenced to VSS –0.3 to VDD+ 0.3 V 20 s IIN 10 mA tRBAT Input Current Notes 10.5 V TA –10 to 60 ºC TJ(max) 150 ºC Tstg –55 to 125 ºC Storage Temperature Range * CAUTION: BiCMOS devices have input static protection but are susceptible to damage when exposed to extremely high static electrical charges. THERMAL CHARACTERISTICS Characteristic Symbol RθJA Package Thermal Resistance Test Conditions* Value Units 4-layer PCB based on JEDEC standard 38 ºC/W *Additional thermal information available on Allegro website. Terminal List Table Number Pin-out Diagram TIMER START 1 I/O 2 16 GUARD2 15 DETECT IN LOW-V SET 3 14 GUARD1 TIMER OUT 4 13 SENSITIVITY SET 1 Name TIMER START 2 I/O 3 LOW-V SET Optionally used with a resistor to adjust low-battery threshold 4 TIMER OUT Optionally used with a resistor to adjust sensitivity during timer mode LED Output to drive visible LED 6 VDD Positive supply voltage 7 TIMING RES Terminal for timing resistor, sets internal bias (affects timing) Input for driving piezoelectric horn LED 5 VDD 6 11 HORN2 8 FEEDBACK TIMING RES 7 10 HORN1 9 VSS 10 HORN1 11 HORN2 9 VSS Input/output to interconnected detectors 5 12 OSC CAP FEEDBACK 8 Function Input to start reduced sensitivity timer mode 12 OSC CAP 13 SENSITIVITY SET 14 GUARD1 15 DETECT IN 16 GUARD2 Negative supply voltage Output for driving piezoelectric horn Complementary output for driving piezoelectric horn Terminal for charging/discharging an external capacitor to run the oscillator Optionally used with a resistor to adjust sensitivity for a specific chamber Active guard 1 for detector input Input from detector chamber Active guard 2 for detector input Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 2 Ionization Smoke Detector with Interconnect and Timer A5367 Functional Block Diagram I/O +Supply 9V VDD FEEDBACK VDD Band Gap LBSamp HORN2 HORN1 Low Battery Sample Low Battery Comparator 600 kΩ _ LED Logic LOW-V SET + VDD + 500 kΩ Power-on Reset + _ SENSITIVITY SET SSamp Smoke Comparator Smoke Sample 1.1 MΩ TIMING RES LBSamp SSamp + VDD OSC CAP Oscillator and Timing TIMER OUT -Supply VSS + _ GUARD1 DETECT IN GUARD2 TIMER START + VDD ION CHAMBER Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 3 Ionization Smoke Detector with Interconnect and Timer A5367 ELECTRICAL CHARACTERISTICS1,2 at TA = 25°C, VDD = 9.0 V, VSS = 0 V, COSCCAP = 0.1 μF, RTIMINGRES = 8.2 MΩ (unless otherwise noted) Characteristic Supply Voltage Range Supply Current Detector Input Current Symbol VDD IDD Oscillator Pulse Width IDETECTIN VOS(GUARD1) VOS(GUARD2) VOS VHYS VCM(guard) VCM ZAG1 ZAG2 tosc tosc(alarm) tw(osc) Timer Mode Duration ttimer Input Offset Voltage Hysteresis Common Mode Range Active Guard Impedance Oscillator Period Low-Battery Threshold Sensitivity Adjust Voltage VDD(th) VSET VOL Horn Output Voltage VOH Horn Output On-Time ton(horn) tw(horn) toff1(horn) Horn Output Off-Time TIMER START Logic Levels TIMER START Input Current TIMER OUT Pulldown Current LED Output-On Current LED Output On-Time LED Output Off-Time toff2(horn) thorn VIH VIL IIN IPD ILED tw(LED) tLED1 tLED2 tLED3 tLED4 Test Conditions Operating VDD = 9.0 V, no alarm, no loads VDD = 12 V, no alarm, no loads 0% to 40% RH, VIN = 0 to 9.0 V Active GUARD1 Active GUARD2 Detect comparator No alarm to alarm Guard amplifier Smoke comparator GUARD1 to VSS GUARD2 to VSS No alarm Local or remote alarm After TIMER START high-to-low, no smoke TA = 0°C to 50°C, LOW-V SET open circuit VSENSITIVITYSET / VDD, SENSITIVITY SET open circuit IOUT = 16 mA, VDD = 9.0 V IOUT = 16 mA, VDD = 7.2 V IOUT = –16 mA, VDD = 9.0 V IOUT = –16 mA, VDD = 7.2 V Local or remote alarm Low battery Local or remote alarm (see Timing Diagrams section) Local or remote alarm (see Timing Diagrams section) Low battery VTIMERSTART = 9.0 V VTIMEROUT = 0.5 V VDD = 7.2 V, VLED = 1.0 V No alarm, in standby No alarm, timer mode Local alarm or test alarm Remote alarm, no local smoke Test Pin 6 6 6 15 14, 15 16, 15 15, 13 13 14, 15 13, 15 14 16 12 12 12 Min. 6.0 — — — — — — 90 2.0 0.5 — — 1.34 37.50 8.0 Typ. 9.0 5.0 — — — — — 130 — — 10 500 1.67 41.67 10 Max. 12 9.0 12 ±1.0 ±100 ±100 ±50 170 VDD – 0.5 VDD – 2.0 — — 2.00 45.84 12 Units V μA μA pA mV mV mV mV V V kΩ kΩ s ms ms 4 8.0 10 12 min 6 7.2 — 7.8 V 13 48.5 50 51.5 %VDD 10, 11 10, 11 10, 11 10, 11 10,11 10, 11 — — 8.5 6.3 450 8.0 0.1 — 8.8 — 500 10 0.5 0.9 — — 550 12 V V V V ms ms 10, 11 450 500 550 ms 10, 11 1350 1500 1650 ms 10, 11 1 1 1 4 5 5 5 5 5 32 4.5 — 20 500 10 8.0 32 8.0 0.76 48 — 2.5 80 — — 12 48 12 1.14 s V V μA μA mA ms s s s 5 — 40 — — — — — 10 40 10 0.97 No LED pulses — s Continued on the next page… Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 4 Ionization Smoke Detector with Interconnect and Timer A5367 ELECTRICAL CHARACTERISTICS1,2 (continued) at TA = 25°C, VDD = 9.0 V, VSS = 0 V, COSCCAP = 0.1 μF, RTIMINGRES = 8.2 MΩ (unless otherwise noted) Characteristic Symbol Test Conditions Test Pin Min. Typ. Max. Units No alarm, VI/O = VDD – 2.0 V 2 25 — 60 μA IIOL Local alarm, VI/O = VDD – 2.0 V 2 –7.5 — — mA I/O Current IIOH IDUMP Charge dump, VI/O = 1.0 V 2 5.0 — — mA I/O Charge Dump Duration tDUMP After local alarm or test 2 1.33 1.66 1.99 s I/O Alarm Voltage VIH(IO) External “alarm” in 2 3.0 — — V I/O Delay tr(io) Local or test alarm to I/O active 2 — 3.0 — s 1Negative current is defined as coming out of the specified device pin (sourcing). 2Alarm (smoke) condition is defined as V DETECTIN < VSENSITIVITYSET; no alarm (no smoke) condition is defined as VDETECTIN > VSENSITIVITYSET. Circuit Description The A5367 is a low-current, BiCMOS circuit providing all of the required features for an ionization-type smoke detector. currents. The detector input has internal diode protection against electrostatic damage. Oscillator An internal oscillator operates with a period of 1.67 seconds during no-smoke conditions. Every 1.67 seconds, internal power is applied to the entire circuit for 10 ms and a check is made for smoke. Every 24 clock cycles (approximately 40 seconds), the LED pin is pulsed and a check is made for low battery by comparing VDD to an internal reference. Because very-low currents are used in the device, the oscillator capacitor at the OSC CAP pin should be a low-leakage type (PTFE, polystyrene, or polypropylene). Alarm Circuitry If smoke is detected, the oscillator period changes to 40 ms and the horn is enabled. The horn output follows a temporal horn pattern of nominally: 0.5 s on, 0.5 s off, 0.5 s on, 0.5 s, 0.5 s on, 1.5 s off. During the off-time, smoke is checked and further alarm output will be inhibited if smoke is not sensed. During a smoke condition, the low-battery alarm is inhibited and the LED is pulsed approximately once every second. Detector Circuitry When the voltage on the DETECT IN pin is less than the voltage on the SENSITIVITY SET pin, the A5367 evaluates this as a smoke condition. During a smoke condition, the resistor divider network that sets the sensitivity (also referred to as the smoke trip point) is altered to increase VSENSITIVITYSET by 130 mV typical (with no external connections on the SENSITIVITY SET pin). This provides hysteresis and reduces false triggering. An active guard is provided on GUARD1 and GUARD2, the two pins adjacent to the detector input, the DETECT IN pin. VGUARD1 and VGUARD2 will be within 100 mV of VDETECTIN. This will keep surface leakage currents to a minimum and provide a method of measuring the input voltage without loading the ionization chamber. The active guard amplifier is not power strobed and thus provides constant protection from surface leakage Sensitivity Adjust The detector sensitivity to smoke is set internally by a voltage divider connected between VDD and VSS. The sensitivity can, however, be externally adjusted to the individual characteristics of the ionization chamber by connecting a resistor between the SENSITIVITY SET pin and either the VDD or VSS pins. With no external connections on the SENSITIVITY SET pin, while the A5367 is checking for smoke: VSENSITIVITYSET = VDD / 2 . To increase sensitivity, a resistor can be connected between SENSITIVITY SET and VDD, with the value: RSENSITIVITYSET = 1.1E6 × K / (1 – K) , where K = VDD / VSENSITIVITYSET – 1 . Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 5 Ionization Smoke Detector with Interconnect and Timer A5367 To decrease sensitivity, a resistor can be connected between SENSITIVITY SET and VSS, with the value: RSENSITIVITYSET = 1.1E6 × K / (1 – K) , where K = 1 / (VDD / VSENSITIVITYSET – 1) . Low Battery The low battery condition threshold is set internally by a voltage divider connected between VDD and VSS. The threshold can be externally adjusted by connecting a resistor between the LOW-V SET pin and either the VDD or VSS pins. To increase the threshold, a resistor can be connected between LOW-V SET and VSS. Given an initial threshold, V(th)init (nominally 7.5 V), and a target threshold, V(th)set , the resistor should have the value: RLOWVSET = 600E3 × K / (1 – 0.375 × K) , where K = 1 / (V(th)set / [0.727 × V(th)init] – 1) . To decrease the threshold, a resistor can be connected between LOW-V SET and VDD. Given an initial threshold, V(th)init (nominally 7.5 V), and a target threshold, V(th)set , the resistor should have the value: RLOWVSET = 960E3 × K / (0.6 – 1.6 × K) , where K = V(th)set / (0.727 × V(th)init) – 1 . The battery voltage level is checked approximately every 40 seconds during the (approximately) 10 mA, 10 ms LED pulse. If an LED is not used, it should be replaced with an equivalent resistor (typically 500 to 1000 Ω) such that the battery loading remains about 10 mA. Timer (Hush) Mode An internal timer is provided that can be used in various configurations to allow a period of reduced smoke detector sensitivity, referred to as Timer (or Hush) mode. In normal operation, when a high-to-low transition occurs at the TIMER START pin, the internal timer is reset, Timer mode is enabled, and the circuit resets to a no-alarm condition. During Timer mode, which is active for approximately 10.25 minutes (368 clock cycles), the TIMER OUT pin is pulled down to VSS every time the A5367 makes a check for smoke. A resistor connected between the TIMER OUT and the SENSITIVITY SET pins will decrease the detector’s sensitivity to smoke during this time, and allow the user to hush alarms caused by nuisance smoke or steam (such as from cooking). While the Timer mode is active, the LED flashes once every (approximately) 10 seconds. If the level of smoke increases such that the reduced-sensitivity level is reached, the A5367 will signal an Alarm condition. If such an Alarm condition does occur, the timer will still continue to completion of its cycle. If Timer mode will not be used, the TIMER START pin can be tied to VSS or left open. I/O A connection to the I/O pin allows multiple smoke detectors to be interconnected. If any single unit detects smoke, its I/O pin is driven high (after a nominal 3 s delay), and all connected units will sound their associated horns. When the I/O pin is driven high by another device, the oscillator immediately speeds up to its 41.7 ms period. The remainder of the sped-up clock cycle, and two additional consecutive clock cycles with I/O high are required to cause an alarm. If the I/O pin falls below its threshold at any time during those (approximately) 83.4 ms, an internal latch is reset and there will not be an alarm. Thus, the I/O must remain high for (approximately) 93.9 ms in order to cause an alarm. This filtering provides significant immunity to I/O noise. The LED is suppressed when an alarm is signaled from an interconnected unit, and any local alarm condition causes the I/O pin to be ignored as an input. When in Timer mode, the device will still signal an alarm if I/O is driven high externally. An internal NMOS device acts as a charge dump to aid in applications involving a large (distributed) capacitance on the I/O pin, and is activated at the end of a local or test alarm. This pin has an onchip pulldown device and must be left unconnected if not used. Testing On power-up, all internal counters are reset. Internal test circuitry allows low battery check by holding the FEEDBACK and OSC CAP pins low during power-up, then reducing VDD and monitoring the HORN1 pin. HORN1 will be driven high when VDD falls below the low-battery threshold. All functional tests can be accelerated by driving the OSC CAP pin with a 2 kHz square wave. The 10 ms strobe period must be maintained for proper operation of the comparator circuitry. Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 6 Ionization Smoke Detector with Interconnect and Timer A5367 Timing Diagrams (Not to scale) Test event Standby Mode OSC CAP Pin tosc tw(osc) Internal Clock Smoke Sample Low Battery Test tw(led) tled1 LED Pin LED off (High-Z) LED on Timer Mode Internal Clock tosc tw(osc) TIMER START Pin ttimer TIMER OUT Pin Output off (High-Z) tled 2 LED Pin tw(led) LED off (High-Z) LED on Low Battery Condition (Low battery) VDD Pin Low Battery Test tled1 tw(led) LED Pin LED off (High-Z) thorn tw(horn) LED on Horn Enable Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 7 Ionization Smoke Detector with Interconnect and Timer A5367 Local Smoke Detection/Test Alarm Condition tosc(alarm) tw(osc) OSC CAP Pin Test event Internal Clock Smoke Sample LED Pin 24 clock cycles Smoke Sample Smoke Chamber tw(led) LED Pin (no smoke) V DETECTIN < VSENSITIVITYSET (smoke) tled3 LED off (High-Z) LED on toff1(horn) toff 2(horn) ton(horn) Horn Enable tr(io) tdump (Output) I/O Pin I/O Charge Dump Remote Alarm Condition tosc(alarm) OSC CAP Pin Internal Clock I/O Pin LED Pin tw(osc) LED off (High-Z) ton(horn) toff2(horn) toff1(horn) Horn Enable I/O Pin (Input) Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 8 Ionization Smoke Detector with Interconnect and Timer A5367 Package A, 16-Pin DIP 19.05 +0.64 –0.38 0.25 +0.10 –0.05 16 6.35 A 1 +0.76 –0.25 7.62 BSC 10.92 MAX 2 Branded Face 3.30 +1.65 –0.38 0.38 MIN SEATING PLANE C 5.33 MAX 3.30 +0.51 –0.38 2.54 BSC 0.13 MIN 1.52 16X 0.46±0.10 0.25 M C A +0.25 –0.38 Terminal #1 mark area For Reference Only; not for tooling use (reference MS-001BB) Dimensions in millimeters Dimensions exclusive of mold flash, gate burrs, and dambar protrusions Exact case and lead configuration at supplier discretion within limits shown Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 9 Ionization Smoke Detector with Interconnect and Timer A5367 Revision History Revision Revision Date Description of Revision Rev. 1 July 11, 2012 Update UL certifications, oscillation, functional description, package drawing style Allegro MicroSystems offers an industry-leading range of ionization and photoelectric smoke detector ICs. For a current listing, please visit our website at: www.allegromicro.com Copyright ©2001-2013, Allegro MicroSystems, LLC Allegro MicroSystems, LLC reserves the right to make, from time to time, such departures from the detail specifications as may be required to permit improvements in the performance, reliability, or manufacturability of its products. Before placing an order, the user is cautioned to verify that the information being relied upon is current. Allegro’s products are not to be used in life support devices or systems, if a failure of an Allegro product can reasonably be expected to cause the failure of that life support device or system, or to affect the safety or effectiveness of that device or system. The information included herein is believed to be accurate and reliable. However, Allegro MicroSystems, LLC assumes no responsibility for its use; nor for any infringement of patents or other rights of third parties which may result from its use. For the latest version of this document, visit our website: www.allegromicro.com Allegro MicroSystems, LLC 115 Northeast Cutoff Worcester, Massachusetts 01615-0036 U.S.A. 1.508.853.5000; www.allegromicro.com 10
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